1-25 of 599

This video discusses Keysight's This video discusses Keysight's mmWave MIMO channel sounding solution for 5G. 5G is aiming to achieve gigabytes per second data rate anywhere, anytime, and to get there, we need to use new technologies such as massive MIMO and millimeter wave broadband. solution for 5G. 5G is aiming to achieve gigabytes per second data rate anywhere, anytime, and to get there, we need to use new technologies such as massive MIMO and millimeter wave broadband.

This video provides an introduction to Class E Power Amplifiers and demonstrates a superior, time saving methodology to design and practically realize a Class E RF power amplifier using first principles to build an ideal circuit and then utilizing circuit design tools to synthesize a more realistic circuit topology from the ideal case.

Keysight announces it will demonstrate and discuss the latest tools and techniques on 1) EMC design and testing, and 2) signal and power integrity at the EMCSI 2015 Symposium, Santa Clara Convention Center, Booth 618, March 17-19.

This short video shows how to predict package, board, and bond wire effects on your RF-module designs which subsequently enables you to fix the design prior going to fabrication. The video demonstrates the process of building modules that comprise different technologies and performing EM simulation on them.

This application note is intended to help Advanced Design System (ADS) users using Modelithics models, simulate RF & Microwave circuits. The focus is on finding the optimum port setup for EM simulation of circuit layouts that include surface-mount technology (SMT) devices.

This short video will provide an introduction to Class F Power Amplifier Design by first building a nonlinear device model and then using this model in a circuit simulation environment to generate the idealized “square” Class F waveforms.

The video introduces automation as a way to increase productivity and efficiency. Keysight WaferPro Express measurement software is used to illustrate the various steps in combination with Cascade Microtech Velox software for prober control and Cascade WinCalXE software for automated calibration.

This video introduces basic concepts regarding running load pull simulations. It then uses load pull simulation to find a load impedance that enables you to obtain greater than 43 dBm output power and greater than 55% PAE from a Cree FET.